KR101567748B1 - A location detection of the Underground Pipe - Google Patents

Abstract

The present invention relates to an underground buried pipe which can easily detect a buried position, and it is an object of the present invention to provide an underground buried pipe having a plurality of buried pipes connected to each other, The current flowing along the detection line may be deteriorated due to the outer circumference resistance. However, since the amplification means amplifies the current to the entire buried pipe, the position of the buried pipe can be detected smoothly on the ground, There is a purpose.
To this end, according to the present invention, there is provided an underground buried pipe for detecting a buried position for detecting a buried position in a ground by detecting a current flow direction on the ground when a detection line is formed on one side, The detection lines 14 of the buried pipe 10 are connected to each other between the adjacent buried pipes 10 and the current is amplified when the current provided to one side is supplied to the other side, (10) is prevented from being destroyed by the outer circumferential resistance, so that the position of the buried pipe (10) can be detected smoothly on the ground.

Description

[0001] The present invention relates to an underground pipe,

The present invention relates to an underground buried pipe which is easy to detect a buried position, and more particularly to a buried buried pipe which is connected to a portion where a plurality of buried pipes are connected to each other and to be amplified when a current provided from one side is supplied to the other side The current flowing along the detection line may be lowered in sensitivity due to the outer circumferential resistance. However, the amplification means amplifies the current through the entire buried pipe to detect the position of the buried pipe smoothly on the ground The present invention relates to an underground buried pipe which is easy to detect a buried position for allowing a buried position to be detected.

Generally, in order to transport gas and water, various kinds of pipes of various materials are buried in the ground. In recent years, they are made of high-density polyethylene raw materials having excellent physical and chemical properties, Polyethylene synthetic pipe is mainly used.

The synthetic resin pipes are commonly used for transportation of fluids such as tap water and wastewater, electric power and telecommunication cables, and synthetic pipes for water pipes such as water pipes are generally buried underground. The piping buried in the basement is laid out in the drawing for the purpose of management and is available for inspection in the government office.

On the other hand, when performing excavation work such as digging and drilling for construction civil works and piping management, it is necessary to read the drawings on the ground before excavation and accurately locate the location of piping in order to prevent damage to piping . If the worker does not grasp the position of the pipe properly and performs excavation work, the pipe often breaks due to the tool of the excavator.

In order to grasp the buried position of the synthetic pipe embedded in the underground, there is embedded a pipeline that can be explored by a metal detector together with a synthetic pipe. When an electromagnetic wave is generated by a radio wave emitted from a transmitter of a metal detector and an electromagnetic field is generated due to the response of the radio wave to the underground channel, the receiver of the metal detector receives the electromagnetic field and searches for the buried position of the channel probe. On the other hand, in a conduit probe cable having conductivity such as a copper alloy wire, current is applied to probe the buried position.

As an example of the prior art, there has been developed a piping tape for exploring a buried position of a synthetic resin pipe, and a piping tape for a pipeline has been constructed by incorporating a thin copper alloy wire into the film. The pipe used for the tube inspection is constructed by installing the synthetic pipe in the basement, covering the soil of 30 cm or more from the upper part of the synthetic pipe, laying the tape on the upper layer and installing it in the soil.

However, there is a problem that the piping tape for piping is very poor in workability because the synthetic resin pipe must be covered with the gravel after it is buried separately.

In another conventional example, a synthetic resin pipe for tube-guiding has been developed in which a conductive material is added to the material of the synthetic resin pipe or a conductive material is printed on the surface of the synthetic resin pipe.

However, there is a problem in that the synthetic resin pipe used for conduit probe manufacture by the addition or printing of a conductive material has a high manufacturing cost due to a complicated manufacturing process, and in particular, when a conductive material is added, the strength of the synthetic resin pipe is lowered. In addition, since electrical connection between two adjacent synthetic resin pipes is required to be performed by a separate power connection mechanism at the site of burial, there is a problem that the workability is low and the construction cost is increased.

Another conventional art has developed a synthetic resin pipe for tube-tube use in which a conductive wire is integrally embedded in a synthetic resin pipe in a synthetic resin pipe. However, since the moldability of a synthetic resin pipe produced by an ordinary extrusion process is lowered, have. Further, since the thickness of the pipe wall of the synthetic resin pipe is thinned, the portion where the pipeline is embedded is easily damaged by the stress concentration.

On the other hand, a form in which a conductive material is printed on a synthetic resin pipe or a form in which a conductive wire is integrally buried in a synthetic resin pipe is a case in which a part of a synthetic resin pipe embedded in a synthetic resin pipe is installed There is a problem in that a separate means for electrically connecting the cut portions is required.

As shown in FIG. 1, a polyethylenetem for an underground embedment, which is easy to detect of the present applicant's proposed utility model No. 444885 (Jun. 12, 2009) proposed to solve the above problem, 1, the metal wire (2) is attached to the outer surface of the polyethylenetube with an adhesive tape ((2)) on the outer surface of the polyethylene tube 3), and a plurality of connecting protrusions 2a and connecting grooves 2b are formed at both ends of each metal wire 2 so as to connect the metal wires, and a moisture- (2c).

However, the conventional buried pipe is installed several kilometers (km). When a current is flowed to the detection line formed in the buried pipe for detecting the position, if the current is about 10 ~ 20m, There is a problem in that it is impossible to detect the position of the buried pipe by the detection line.

Korean Patent No. 607574 (Announced on Mar. 3, 2006) Registered Utility Model No. 444885 of the Republic of Korea (Notice of June, 2009)

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problems described above and to provide an amplifying device for amplifying a current supplied from one side to another when a detection line is connected to a portion where a plurality of buried pipes are connected to each other, The current flowing along the detection line may be lowered in sensitivity due to the outer circumferential resistance but amplified by the amplifying means to energize the entire buried pipe so that the position of the buried pipe can be detected smoothly on the ground The present invention provides an underground buried pipe which can easily detect a buried position.

It is another object of the present invention to provide an RFID card in which amplification means is constituted at a connection portion between neighboring buried pipes and an RFID card in which basic information of a buried pipe is stored at one side of the amplification means, The present invention provides an underground buried pipe which is easy to detect a buried position for facilitating the maintenance of the buried pipe.

According to an aspect of the present invention, there is provided a buried position detecting apparatus for detecting a buried position in a ground by detecting a flow direction of a current on the ground when a detection line is formed on one side, Wherein the buried pipes are connected to each other by a detection line of the buried pipe and between the buried pipes adjacent to each other to amplify the current when the current provided to one side is supplied to the other side, And an amplifying means for accurately detecting the position of the buried pipe on the ground by preventing the buried pipe from being destroyed by the outer peripheral resistance.

In the present invention, it is preferable that the amplifying means further include an RFID card for inputting basic information of the buried pipe to facilitate maintenance.

In the present invention, it is preferable that the neighboring buried pipe includes an insulating member for preventing the penetration of foreign matter or moisture between the amplifying means and the detecting line connected to the amplifying means.

In the present invention, the buried pipe is preferably formed of polyethylene.

According to the present invention, by constituting the amplifying means for amplifying the current provided from one side to the other side while connecting the detection line to the portion where the plurality of buried pipes are mutually connected, The amplification means amplifies the current to the entire buried pipe, and the position of the buried pipe can be detected smoothly on the ground.

In addition, by constructing the amplifying means at the connection portion between the neighboring buried pipes and configuring the RFID card storing the basic information of the buried pipe at one side of the amplifying means, maintenance of the buried pipe through the stored basic information of the RFID card There is an effect that it can be facilitated.

1 is a connection state diagram of a buried pipe showing a conventional example.
2 is a schematic perspective view showing a connection state of a buried pipe according to the present invention;
3 is a partially enlarged cross-sectional view showing a connection state of a buried pipe according to the present invention.
4 is a perspective view of an amplifying means according to the present invention;

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

The buried pipe 10 of the present invention includes a ridge 12 having a predetermined height on one side, as shown in FIGS.

In addition, the protruding portion 12 includes a detection line 14 for allowing a current to flow so that the position of the buried pipe 10 can be easily detected on the ground.

It is preferable that the protruding portion 12 and the detection line 14 are integrally formed when the buried pipe 10 is manufactured. After the detection line 14 is positioned on one side of the buried pipe 10, the detection line 14 is connected to one side of the buried pipe 10 through an attachment means such as an adhesive tape, It may be configured to be fixed to the periphery.

Meanwhile, the buried pipe 10 is typically formed to have a length of 6 to 12 m.

1, when the length of the buried pipe 10 is extended, the flange is fixed to one end of the buried pipe 10, and the flange is connected to the adjacent buried pipe 10 ) Is thermally fused by heating one end thereof and thermally bonding them to each other, and the latter thermal fusion bonding method is mainly used. In this case, the buried pipe 10 is formed of polyethylene (PE).

It also includes amplification means 20 for interconnecting the detection lines 14 of the neighboring buried pipes 10.

And an insulating member 30 for preventing the penetration of foreign matter or moisture between the detection lines 14 connected through the amplifying means 20.

The amplifying means 20 amplifies the current supplied from one side through the detection line 14 and provides the amplified current to the detection line 14 on the other side as shown in FIG. So that the electric current flows. This makes it possible to smoothly flow the current through the detection line 14 formed in the buried pipe 10 so that the current flowing through the detection line 14 on the ground can be easily detected so that the position of the buried pipe 10 So that it can grasp accurately.

In addition, each of the opposite ends of the amplifying means 20 includes an insertion hole 22 for inserting and fixing each of the detection lines 14 positioned opposite to each other.

In the insertion hole 22, a covering material coated on one end of the detection line 14 is partly removed to insert the removed part.

When the detection line 14 is inserted into the insertion hole 22, the connection is completed by being pushed by the terminal formed inside.

It is preferable that the amplifying means 20 includes an RFID card 24 to which basic information such as the manufacturer of the buried pipe 10, the date of manufacture, the material, and the date of burial are inputted.

Thus, by acquiring the basic information of the buried pipe 10 through the information stored in the RFID card 24 through the detector that detects the detection line 14 when the buried pipe 10 is detected, 10) is easy to maintain.

In addition, the RFID card 24 can transmit / receive to / from the ground detector, i.e., the locator, by receiving a part of the current amplified by the amplifying means 20, thereby smoothly providing the stored basic information .
The amplifying means 20 is configured such that when the current supplied through the probe 14 of the buried pipe 10 formed on one side is transmitted to the probe 14 of the buried pipe 10 on the other side, The current is amplified and flows so that the weakened current is amplified in each section, that is, the portion to which the buried pipes 10 are connected, so that current flows to the entire buried pipe 10. In this case, the amplifying means 20 reflects the mounting position in consideration of the length of the entire buried pipe 10 and the external resistance, and further, the amplifying means 20, So long as the current can flow through the pipe 10.
Further, since the amplification means 20 is a known technology, the detailed description of the structure is omitted here.

The insulation member 30 is a means for sealing the detection lines 14 connected to the both ends of the amplification means 20 in order to prevent the penetration of foreign matter or moisture.

The insulating member 30 is composed of an insulating tape or a pressing band. Of course, the present invention is not limited thereto, and any means can be used as long as it can prevent foreign matter or moisture from penetrating into the space between the amplification means 20 and the detection line 14 connected to the amplification means 20 . For example, an epoxy resin may be applied to a predetermined thickness and then a heat-shrinkable tape may be attached to seal the same.

The use state of the underground buried pipe, which is easy to detect the buried position as described above, will be described below.

First, a certain depth is pierced at a position where the buried pipe 10 is to be buried, and the buried pipe 10 is seated at the buried position.

Subsequently, both ends of the adjacent buried pipe 10 are heated and melted at a predetermined temperature, and then the buried pipes 10 are compressed so as to be in close contact with each other. Then, the neighboring buried pipes 10 are integrated after a lapse of a predetermined time.

Then, the covering of the detection line 14 formed at each of the both ends of the integrated buried pipe 10 is removed and inserted into the insertion hole 22 formed at both ends of the amplification means 20. At this time, the detection line 14 inserted into the insertion hole 22 is connected to a connection terminal (not shown) formed in the insertion hole 22.

The RFID card 24 constituting the amplifying means 20 stores basic information of the buried pipe 10 such as manufacturer, date of manufacture, material, burial date, and the like.

An insulation member 30 is formed between the amplification means 20 and the detection line 14 to prevent foreign matter or moisture from penetrating into the amplification means 20 after the connection of the detection line 14 is completed. For example, the space between the amplification means 20 and the detection line 14 is sealed through a compression tape or a compression band.

The installation of the buried pipe 10 in the ground is completed through the above process.

On the other hand, when the position of the buried pipe 10 buried in the ground is to be detected, a current is passed through the detection line 14 of the buried pipe 10.

In this case, since the amplifying means 20 is formed between the buried pipes 10, the current flowing through the detection line 14 of the buried pipe 10 can be somewhat weakened by the surrounding resistance, When the current reaches the amplifying means 20, the current is amplified and the current smoothly flows to the buried pipe 10 connected to the long distance, so that the ground detector or the locator accurately detects the position of the buried pipe 10.

In addition to detecting the position of the buried pipe 10 by the detector, basic information stored in the RFID card 24 constituted by the amplifying means 20 is received, so that the current state of the buried pipe 10 can be easily So that it can be replaced.

The above description is only an example for implementing an underground buried pipe which can easily detect the buried position, and the present invention is not limited to the above embodiment. It will be understood by those skilled in the art that various changes may be made without departing from the spirit of the invention.

10: buried pipe 12: ridge
14: detection line 20: amplification means
22: Insertion ball 24: RFID card
30: Insulation member

Claims (4)

The present invention relates to an underground buried pipe which can easily detect a buried position to detect a buried position in a ground by detecting a current flow on the ground when a current is flowed through the detection line,
The buried pipes 10 adjacent to each other are connected to the detection lines 14 of the buried pipe 10 and the current is amplified when a current inputted from one side is outputted to the other side, Each of the detection lines 14 formed in each of the neighboring buried pipes 10 is inserted in the insertion direction so that the current flowing along the insides of the buried pipes 10 can be accurately detected on the ground, Amplification means (20) in which an insertion hole (22) is formed;
Wherein the buried position is easily detected.
The amplifying device according to claim 1,
An RFID card 24 for inputting basic information of the buried pipe 10 to facilitate maintenance;
Wherein the buried position detecting method further comprises:
The submerged pipe (10) according to claim 1,
An insulation member (30) for preventing the penetration of foreign matter or moisture between the amplification means (20) and the detection line (14) connected to the amplification means (20);
Wherein the buried position is easily detected.
The buried pipe (10) according to any one of claims 1 to 3, wherein the buried pipe (10)
Polyethylene;
Wherein the buried position is easily detected.

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